阅读说明：本技术 一种智能化工程用多功能检测仪 (Intelligent engineering is with multi-functional detector ) 是由 张发增 于 2021-07-06 设计创作，主要内容包括：本发明公开了一种智能化工程用多功能检测仪,其结构包括：风力检测模块、风向检测模块、湿度检测模块、显示器、数据采集盒、支架,风力检测模块通过螺栓固定在支架的顶部,且通过导线与数据采集盒内部控制单元相连接,风向检测模块安设在湿度检测模块的右侧；有益效果：本发明通过上述的压合滚圈与底部的联动盘进行配合,当惯性较大的情况下滚珠在滚珠滑道移动,使得二者的摩擦力降低,同时仍旧能够处于检测状态,在风速降低后,由于滚珠滑道的落差设计,使得滚珠自动复位,并与磁圈吸合避免晃动,提高了检测的稳定性。(The invention discloses a multifunctional detector for intelligent engineering, which structurally comprises: the wind power detection module is fixed at the top of the bracket through bolts and is connected with the internal control unit of the data acquisition box through a lead, and the wind direction detection module is arranged on the right side of the humidity detection module; has the advantages that: according to the invention, through the cooperation of the pressing rolling ring and the linkage disc at the bottom, when the inertia is large, the ball moves in the ball slideway, so that the friction force between the pressing rolling ring and the ball slideway is reduced, and the pressing rolling ring and the linkage disc at the bottom can still be in a detection state.)

1. The utility model provides an intelligent engineering is with multi-functional detector, its structure includes: wind-force detection module (1), wind direction detection module (2), humidity detection module (3), display (4), data acquisition box (5), support (6), wind-force detection module (1) is through the bolt fastening at the top of support (6), and is connected with data acquisition box (5) internal control unit through the wire, wind direction detection module (2) are installed on the right side of humidity detection module (3), and wind direction detection module (2) all are connected through the electricity with data acquisition box (5) with humidity detection module (3), display (4) are through the bolt fastening at the front end of support (6), its characterized in that:

the wind power detection module (1) comprises: protector (11), wind bowl (12), detect axle (13), protecting crust (14), support frame (15), locking frame (16), protector (11) are installed in the main shaft department of wind bowl (12) and are linked to each other with detecting axle (13), detect axle (13) and pass through the inside of fix with screw in protecting crust (14), support frame (15) and locking frame (16) intermeshing, locking frame (16) pass through the upper surface of bolt fastening at support (6).

2. The intelligent engineering multifunctional detector as claimed in claim 1, wherein: the protector (11) comprises a driving upper plate (111), a driven bottom plate (112), a main shaft (113), a spring (114) and a linkage shaft (115), wherein the driving upper plate (111) is attached to the upper surface of the driven bottom plate (112), the main shaft (113) penetrates through the middle of the spring (114) and is connected with the driven bottom plate (112), and the driving upper plate (111) is connected with a main shaft of the wind bowl (12) through the linkage shaft (115).

3. The intelligent engineering multifunctional detector as claimed in claim 2, wherein: the driving upper plate (111) comprises a pressing rolling ring (1111), ball slideways (1112), balls (1113), magnetic rings (1114) and a rotating inner shaft (1115), wherein the middle part of the pressing rolling ring (1111) is provided with more than two ball slideways (1112), the ball slideways (1112) are arranged in an annular array, the balls (1113) are nested on the surface of the ball slideways (1112), and the magnetic rings (1114) are nested on the outer edge of the rotating inner shaft (1115) and are in clearance fit with the balls (1113).

4. The intelligent engineering multifunctional detector as claimed in claim 2, wherein: the driven bottom plate (112) comprises a loop bar (1121), an underframe (1122), a linkage disc (1123), a torsion groove (1124) and a centering block (1125), the loop bar (1121) is fixedly welded at the middle of the underframe (1122), the underframe (1122) is fixedly arranged at the middle of the linkage disc (1123), more than two torsion grooves (1124) are formed in the surface of the upper end of the linkage disc (1123), and the middle of the linkage disc (1123) is provided with a raised centering block (1125).

5. The intelligent engineering multifunctional detector as claimed in claim 4, wherein: the ball slideway (1112) is distributed in an inclined shape, the depth of the ball slideway close to the magnetic ring (1114) is larger, and the outward extending depth is gradually reduced.

6. The intelligent engineering multifunctional detector as claimed in claim 4, wherein: the depth of the torsion groove (1124) is between 1 and 5 mm.

7. The intelligent engineering multifunctional detector as claimed in claim 4, wherein: the linkage disk (1123) is of an inwards concave structure, and the plane in the middle is lower than the planes on the two sides.

Technical Field

The invention discloses an intelligent multifunctional detector for engineering, and belongs to the technical field of engineering detection.

Background

Various public infrastructure construction that city life matches all belong to the municipal works category, for example common urban road, the bridge, the subway, the underground pipeline, the tunnel, the river course, rail transit, sewage treatment, engineering such as refuse treatment deals with, because the scope of involving is wider, because need a multi-functional detector to monitor the environment, so that the designer in time optimizes and improves according to the circumstances, multi-functional detector can monitor wind-force, wind speed, humidity, wind direction etc. usually, but wind speed detector has a drawback, usually wind speed detector has certain range, lead to wind speed detector overload easily under the condition of strong wind, and then stop work, can't provide the detection again under adverse circumstances.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent engineering multifunctional detector to solve the problem that the wind speed detector is easy to overload under the condition of strong wind, so that the wind speed detector stops working and cannot provide detection again under the severe environment.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an intelligent engineering is with multi-functional detector, its structure includes: wind-force detection module, wind direction detection module, humidity detection module, display, data acquisition box, support, wind-force detection module passes through the bolt fastening at the top of support, and is connected with data acquisition box internal control unit through the wire, wind direction detection module installs on humidity detection module's right side, and wind direction detection module and humidity detection module all pass through the electricity with the data acquisition box and be connected, the display passes through the front end of bolt fastening at the support.

Preferably, the wind force detection module comprises: protector, wind bowl, detection axle, protecting crust, support frame, locking frame, the protector is installed in the main shaft department of wind bowl, and is connected with the detection axle of bottom, the protector axle center is a straight line with detection axle center, the detection axle passes through the fix with screw in the inside of protecting crust, the support frame internal thread meshes with the external screw thread of locking frame each other, the upper surface at the support is fixed through the bolt to the locking frame.

Preferably, the protector includes: the wind bowl comprises a driving upper plate, a driven bottom plate, a main shaft, a spring and a linkage shaft, wherein the driving upper plate is attached to the upper surface of the driven bottom plate, the main shaft penetrates through the middle of the spring and is connected with the driven bottom plate at the top, and the driving upper plate is connected with a wind bowl main shaft through the linkage shaft at the top.

Preferably, the driving upper plate includes: the pressing rolling ring comprises a pressing rolling ring, ball slideways, balls, a magnetic ring and a rotating inner shaft, wherein more than two ball slideways are arranged in the middle of the pressing rolling ring and are arranged in an annular array mode, the balls are nested on the surfaces of the ball slideways and are movably connected, and the magnetic ring is nested on the outer edge of the rotating inner shaft and is in clearance fit with the balls.

Preferably, the driven chassis includes: loop bar, chassis, linkage dish, torque groove, piece in the middle part of centering, loop bar welded fastening is at the middle part of chassis, the chassis is fixed at the middle part of linkage dish and is in line, linkage dish upper end surface is equipped with the torque groove more than two, linkage dish middle part is equipped with bellied piece in the middle of the centering, piece surface in the middle of the centering is laminated with the rotatory interior axle inside groove at top each other.

Preferably, the ball slide is the slope form and distributes, and the degree of depth that is close to magnetic ring department is great, and the outside extension degree of depth reduces gradually, distributes with the linkage dish symmetry formula of bottom, and then makes the disk body separation when the steel ball flies to get rid of at a high speed, reduces the friction and protects the detection axle.

Preferably, the depth of the torsion groove is-mm, arc-shaped sections are arranged on two sides of the torsion groove, friction force can be increased through the arc surfaces, and meanwhile alignment is more accurate when the torsion groove is meshed with the driving upper plate on the top.

Preferably, the linkage disc is of a concave structure, the plane of the middle part is lower than the planes of the two sides, and the steel balls in the middle part can be gathered at the concave part in the middle part in the normal detection process, so that the planes of the edges can be in better friction transmission.

Preferably, the outer edge of the magnetic ring is of a cambered surface structure, so that the steel ball is not excessively attached to the magnetic ring in the process of attracting the steel ball, and the steel ball is not easily thrown out.

The utility model provides an intelligent engineering is with multi-functional detection, the protector is installed at wind bowl and is detected between the axle, in case wind-force is under very big state, the rotational speed of wind bowl can be very high, the ball breaks away from the adsorption affinity of magnetosphere this moment, move to the edge along the ball slide, and will drive the upper plate and protect with the separation of driven bottom plate, it still can continue to rotate under the effect of ball to detect the axle this moment, only relative rotational speed can reduce, consequently still can detect data, the detection mode that will gather the box switches just can calibrate data, avoided bad weather detection mechanism to appear transshipping and the condition that causes the damage to take place.

According to the technical scheme, the intelligent multifunctional detector for engineering has the following beneficial effects:

according to the invention, through the cooperation of the pressing rolling ring and the linkage disc at the bottom, when the inertia is large, the ball moves in the ball slideway, so that the friction force between the pressing rolling ring and the ball slideway is reduced, and the pressing rolling ring and the linkage disc at the bottom can still be in a detection state.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an intelligent engineering multifunctional detector of the present invention.

FIG. 2 is a schematic front view of a wind detection module according to the present invention.

Fig. 3 is a schematic sectional view of the protector of the present invention.

Fig. 4 is a schematic structural view of the driving upper plate of the present invention.

Fig. 5 is a schematic structural diagram of the driven base plate of the present invention.

Fig. 6 is a schematic perspective view of the protector of the present invention.

In the figure: the device comprises a wind power detection module-1, a wind direction detection module-2, a humidity detection module-3, a display-4, a data acquisition box-5, a support-6, a protector-11, a wind bowl-12, a detection shaft-13, a protective shell-14, a support frame-15, a locking frame-16, a driving upper plate-111, a driven bottom plate-112, a main shaft-113, a spring-114, a linkage shaft-115, a pressing rolling ring-1111, a ball slideway-1112, a ball-1113, a magnetic ring-1114, a rotating inner shaft-1115, a loop bar-1121, a bottom frame-113, a linkage disc-1123, a torsion groove-1124 and a centering block-1125.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1 to 3, the present invention provides a technical solution of a multifunctional testing apparatus for intelligent engineering: the structure includes: wind-force detection module 1, wind direction detection module 2, humidity detection module 3, display 4, data acquisition box 5, support 6, wind-force detection module 1 passes through the bolt fastening at the top of support 6, and is connected with the inside control unit of data acquisition box 5 through the wire, wind direction detection module 2 installs the right side at humidity detection module 3, and wind direction detection module 2 all is connected through the electricity with data acquisition box 5 with humidity detection module 3, display 4 passes through the bolt fastening at the front end of support 6, wind-force detection module 1 includes: protector 11, wind bowl 12, detection axle 13, protecting crust 14, support frame 15, locking frame 16, protector 11 is installed in the main shaft department of wind bowl 12, and is connected with the detection axle 13 of bottom, 11 axle centers of protector are a straight line with detection axle 13 axle centers, it passes through the fix with screw in the inside of protecting crust 14 to detect axle 13, the external screw thread intermeshing of support frame 15 internal thread and locking frame 16, locking frame 16 passes through the bolt fastening at the upper surface of support 6, protector 11 includes: the wind bowl main shaft driving device comprises a driving upper plate 111, a driven bottom plate 112, a main shaft 113, a spring 114 and a linkage shaft 115, wherein the driving upper plate 111 is attached to the upper surface of the driven bottom plate 112, the main shaft 113 penetrates through the middle of the spring 114 and is connected with the driven bottom plate 112 at the top, and the driving upper plate 111 is connected with a main shaft of the wind bowl 12 through the linkage shaft 115 at the top.

The protector 11 is arranged between the wind bowl 12 and the detection shaft 13, and the protector 11 is used as a separation protector when wind power is stronger, so that the condition that the detection shaft is damaged in the high-speed running process is avoided.

Example two

Referring to fig. 1 to 6, the present invention provides a technical solution of a multifunctional testing apparatus for intelligent engineering: the structure includes: wind-force detection module 1, wind direction detection module 2, humidity detection module 3, display 4, data acquisition box 5, support 6, wind-force detection module 1 passes through the bolt fastening at the top of support 6, and is connected with the inside control unit of data acquisition box 5 through the wire, wind direction detection module 2 installs the right side at humidity detection module 3, and wind direction detection module 2 all is connected through the electricity with data acquisition box 5 with humidity detection module 3, display 4 passes through the bolt fastening at the front end of support 6, wind-force detection module 1 includes: protector 11, wind bowl 12, detection axle 13, protecting crust 14, support frame 15, locking frame 16, protector 11 is installed in the main shaft department of wind bowl 12, and is connected with the detection axle 13 of bottom, 11 axle centers of protector are a straight line with detection axle 13 axle centers, it passes through the fix with screw in the inside of protecting crust 14 to detect axle 13, the external screw thread intermeshing of support frame 15 internal thread and locking frame 16, locking frame 16 passes through the bolt fastening at the upper surface of support 6, protector 11 includes: the wind bowl main shaft driving device comprises a driving upper plate 111, a driven bottom plate 112, a main shaft 113, a spring 114 and a linkage shaft 115, wherein the driving upper plate 111 is attached to the upper surface of the driven bottom plate 112, the main shaft 113 penetrates through the middle of the spring 114 and is connected with the driven bottom plate 112 at the top, and the driving upper plate 111 is connected with a main shaft of the wind bowl 12 through the linkage shaft 115 at the top.

The driving upper plate 111 includes: the pressing rolling ring 1111 is provided with more than two ball slideways 1112 in the middle, the ball slideways 1112 are arranged in an annular array, the balls 1113 are nested on the surfaces of the ball slideways 1112 and are movably connected, the magnetic ring 1114 is nested on the outer edge of the rotating inner shaft 1115 and is in clearance fit with the balls 1113, and the driven base plate 112 comprises: the steel ball bearing comprises a loop rod 1121, a bottom frame 1122, a linkage disc 1123, torsion grooves 1124 and a centering block 1125, wherein the loop rod 1121 is fixedly welded at the middle part of the bottom frame 1122, the bottom frame 1122 is fixed at the middle part of the linkage disc 1123 in a straight line, more than two torsion grooves 1124 are arranged on the upper end surface of the linkage disc 1123, a raised centering block 1125 is arranged at the middle part of the linkage disc 1123, the outer surface of the centering block 1125 is attached to an inner groove of a rotating inner shaft 1115 at the top part, ball slide ways 1112 are obliquely distributed, the depth close to the magnetic rings 1114 is larger, the outward extension depth is gradually reduced and is symmetrically distributed with the linkage disc 1123 at the bottom part, so that the disc bodies are separated when a steel ball flies and is thrown at high speed, friction is reduced to protect a detection shaft 13, the torsion grooves 1124 are 1-5mm deep, arc-shaped cross sections are arranged on two sides, the arc-shaped surfaces can increase friction force, and are aligned more accurately when being engaged with a driving upper plate 111 at the top part, linkage dish 1123 is the indent formula structure, and the middle part plane is less than the plane of both sides, and the steel ball at the in-process middle part that normally detects can collect the interior concave department at the middle part for the friction drive that the plane at edge can be better, the outer edge of magnetosphere 1114 is cambered surface structure, and the in-process that attracts the steel ball can not excessive laminating cause the condition that the steel ball is difficult to throw away to take place.

The pressing rolling ring 1111 is matched with the linkage disc 1123 at the bottom, the ball 1113 moves in the ball slideway 1112 under the condition of large inertia, so that the friction force between the pressing rolling ring 1111 and the linkage disc 1112 is reduced, and the pressing rolling ring 1111 can still be in a detection state.

The working principle of the multifunctional detector for intelligent engineering of the invention is explained as follows:

wind-force detection module 1, wind direction detection module 2, humidity detection module 3 carry out long-time detection engineering environment through the inside of pin connection to data acquisition box 5, and data present through display 4, and the staff of being convenient for controls peripheral environmental condition.

Protector 11 is installed between wind bowl 12 and detection axle 13, in case wind-force is under very big state, the rotational speed of wind bowl 12 can be very high, ball 1113 breaks away from the adsorption affinity of magnetosphere 1114 this moment, move to the edge along ball slide 1112, and will drive upper plate 111 and driven bottom plate 112 separation and protect, it still can continue to rotate under the effect of ball to detect axle 13 this moment, only relative rotational speed can reduce, consequently still can detect data, the detection mode that will gather box 5 switches just can calibrate data, the condition emergence of damage has been avoided bad weather detection mechanism to appear transshipping.

The foregoing merely illustrates the principles and preferred embodiments of the invention and many variations and modifications may be made by those skilled in the art in light of the foregoing disclosure, which are intended to be within the scope of the invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.